Calculation of mean convective heat transfer coefficient kc of a straight pipe at an uniform wall temperature or uniform heat flux and for a hydrodynamically developed or undeveloped laminar fluid flow.
There are basically three differences:
The mean convective heat transfer coefficient kc of a straight pipe in the laminar regime can be calculated for the following four heat transfer boundary conditions through its corresponding Nusselt number Nu:
Uniform wall temperature in developed fluid flow (heatTransferBoundary == Modelica.Fluid.Dissipation.Utilities.Types.HeatTransferBoundary.UWTuDFF) according to [VDI 2002, p. Ga 2, eq. 6] :
Nu_TD = [3.66^3 + 0.7^3 + {1.615*(Re*Pr*d_hyd/L)^1/3 - 0.7}^3]^1/3
Uniform heat flux in developed fluid flow (heatTransferBoundary == Modelica.Fluid.Dissipation.Utilities.Types.HeatTransferBoundary.UHFuDFF) according to [VDI 2002, p. Ga 4, eq. 19] :
Nu_qD = [4.364^3 + 0.6^3 + {1.953*(Re*Pr*d_hyd/L)^1/3 - 0.6}^3]^1/3
Uniform wall temperature in undeveloped fluid flow (heatTransferBoundary == Modelica.Fluid.Dissipation.Utilities.Types.HeatTransferBoundary.UWTuUFF) according to [VDI 2002, p. Ga 2, eq. 12] :
Nu_TU = [3.66^3 + 0.7^3 + {1.615*(Re*Pr*d_hyd/L)^1/3 - 0.7}^3 + {(2/[1+22*Pr])^1/6*(Re*Pr*d_hyd/L)^0.5}^3]^1/3
Uniform heat flux in developed fluid flow (heatTransferBoundary == Modelica.Fluid.Dissipation.Utilities.Types.HeatTransferBoundary.UHFuUFF) according to [VDI 2002, p. Ga 5, eq. 25] :
Nu_qU = [4.364^3 + 0.6^3 + {1.953*(Re*Pr*d_hyd/L)^1/3 - 0.6}^3 + {0.924*Pr^1/3*[Re*d_hyd/L]^0.5}^3]^1/3.
The corresponding mean convective heat transfer coefficient kc is determined w.r.t. the chosen heat transfer boundary by:
kc = Nu * lambda / d_hyd
with
d_hyd | as hydraulic diameter of straight pipe [m], |
kc | as mean convective heat transfer coefficient [W/(m2K)], |
lambda | as heat conductivity of fluid [W/(mK)], |
L | as length of straight pipe [m], |
Nu = kc*d_hyd/lambda | as mean Nusselt number [-], |
Pr = eta*cp/lambda | as Prandtl number [-], |
Re = rho*v*d_hyd/eta | as Reynolds number [-], |
v | as mean velocity [m/s]. |
The mean Nusselt number Nu representing the mean convective heat transfer coefficient kc depending on four different heat transfer boundary conditions is shown in the figures below.
This verification has been done with the fluid properties of Water (Prandtl number Pr = 7) and a diameter to pipe length fraction of 0.1.